“Focus has been on how cells become mechanosensitive, how cell adhesion became mechanosensitive through the recruitment of mechanosensitive proteins like talin, vinculin, and also other proteins,” said Sangyoon Han, a mechanobiologist at Michigan Technological University who was not involved in the study. “But not many studies were around to tell if there is any kind of premechanosensitive processes that act as a seed for the original binding of this mechanosensitive binding.”

Cooper’s team imaged adhesion formation at the cell surface interface using total internal reflection (TIRF) microscopy and observed that activated Cas clustered at this site almost a full minute before mechanosensing proteins arrived or β1 integrin was activated. They depleted Cas with siRNA and inactivated it to determine this protein’s role in the developing adhesion site. “When we remove Cas from cells, or inhibit its phosphorylation, or inhibit stuff downstream of Cas, the integrin clustering doesn’t really happen,” Cooper said. The Cas-depleted cells attached poorly to surfaces and were immobile.

Finally, the group identified a positive feedback loop between Cas and Rac1, which drives actin polymerization and is important in forming focal complexes that promoted cell adhesion formation.^5,6 Cas phosphorylation activated Rac1, which in turn generated reactive oxygen species, which promoted additional Cas activation. Cas degradation regulated this loop.

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Apple’s Vision Pro may have dazzled the world with its stunning display and sleek design, but not everyone is convinced it’s the best headset on the market. One of its biggest rivals, Meta CEO Mark Zuckerberg, has some pinching words for the device and its maker.

So why is Quest 3 a better overall product according to Zuck?

Zuckerberg took to Instagram on Tuesday to share his thoughts on the Vision Pro, which he tried out for himself. He compared it to Meta’s Quest 3, the latest version of the popular standalone VR headset. He filmed the video using the Quest 3’s video passthrough feature, which lets users see the real world in color through the headset’s cameras.

A new study suggests that so-called emergent abilities actually develop gradually and predictably, depending on how you measure them.

Join the discussion on this paper page.

The system has been deployed in the Faroe Islands, located in the North Atlantic.

Join the discussion on this paper page.

Legume plants have the unique ability to interact with nitrogen-fixing bacteria in the soil, known as rhizobia. Legumes and rhizobia engage in symbiotic relations upon nitrogen starvation, allowing the plant to thrive without the need for externally supplied nitrogen.

Symbiotic nodules are formed on the root of the plant, which are readily colonized by nitrogen-fixing bacteria. The cell-surface receptor SYMRK (symbiosis receptor-like kinase) is responsible for mediating the symbiotic signal from rhizobia perception to formation of the nodule. The activation mechanism of the receptor was until recently unknown.

In this study, appearing in Proceedings of the National Academy of Sciences, researchers have now identified four essential phosphorylation sites that act as the catalyst for the symbiotic relationship between legume plants and nitrogen-fixing bacteria. The initial steps of the symbiotic pathway at the cell surface are well characterized; however, understanding of how the signal is relayed downstream has eluded the research field for years.